Indica is not only an important rice subspecies widely planted in Asia and the rest of the world,but it is also the genetic background of the majority of hybrid varieties in China.Studies on genetic structure and genetic diversity in indica germplasm resources are important for the classification and utilization of cultivated rice in China.Using a genetically representative core collection comprising 1482 Chinese indica landraces,we analysed the genetic structure,geographic differentiation and diversity.Model-based structure analysis of varieties within three ecotypes revealed nine eco-geographical types partially accordant with certain ecological zones in China.Differentiation of eco-geographical types was attributed to local ecological adaption and physical isolation.These groups may be useful for developing heterotic groups of indica.To facilitate the identification of different ecotypes and eco-geographical types,we identified characteristic SSR alleles of each ecotype and eco-geographical type and a rapid index of discrimination based on characteristic alleles.The characteristic alleles and rapid discrimination index may guide development of heterotic groups,and selection of hybrid parents.
China is one of the largest centers of genetic diversity of Oryza sativa L. and is the original centers of Oryza sativa L. subspecies japonica. Using a genetically representative core collection of 1 442 rice landraces of japonica in China, the genetic structure, differentiation, and geographic diversity were analyzed. The model-based structure analysis on varieties within three ecotypes revealed 16 eco-geographical types, which are partially accorded with some of the ecological zones in China. The differentiation of eco-geographical types contributed to the local ecological adaption and physical isolation, and maybe could be used to develop the heterotic groups of japonica. To facilitate the identification of different ecotypes and eco-geographical types, we provided the SSR character alleles of each ecotype or geographical eco-group and a rapid discriminated method based on these character alleles. Lastly, investigation on genetic diversity, genetic differentiation indicated that southwest region of China, including south of Yunnan Province, northwest of Guangxi Zhuang Autonomous Region, and southwest of Guizhou Province, possessed the highest genetic diversity and all the necessary conditions as a center of genetic diversity and should be the center of genetic diversity of rice landraces of japonica in China.
